Tissue approximation device

ABSTRACT

A tissue approximation device comprising two elongate arms, an attachment means to secure the elongate arms to each other, adhesive pads on at least a portion of the elongate arms to anchor the tissue approximation device to the skin, and a locking means to lock the elongate arms in place relative to each other.

BACKGROUND

This application is a divisional of U.S. application Ser. No. 10/674,653, filed on Sep. 30, 2003, the contents of which are hereby incorporated by reference in their entirety.

BACKGROUND

The present invention is directed to a tissue approximation device that is capable of maintaining approximation of a wound without substantial eversion of the edge surfaces of the wound and without requiring the physician or health care attendant to manually secure the device.

Prior art tissue approximation devices have been described. For example, U.S. Pat. No. 6,042,599 discloses a tissue approximation forceps that is particularly useful in approximating edge surfaces of a wound where liquid topical adhesive is to be used. The forceps described in this reference comprise two leg members having grip members with grip surfaces that lie in a common plane. The grip surfaces are described as a plurality of parallel longitudinally extending, generally, V-shapes projections or sharp projections. This reference discloses that when the handle of the forceps is squeezed together, the grip members move towards one another in the same plane, in a direction generally parallel to the skin tissue, while the grip surfaces engage the skin tissue on opposite sides of the wound, such that the opposite edges of the wound are moved together without everting the edge surfaces. Specifically, the projections on the grip surfaces are urged into and against the skin tissue to approximate the wound and frictionally hold the engaged skin tissue. The reference also discloses a ratchet type-locking arm on the handle that fits the other handle member when the forceps are in the closed position. However, a problem associated with this tissue approximation forceps is that the physician must apply a force perpendicular to the skin tissue to maintain contact between the gripping surfaces and the skin tissue, in order to maintain approximation of the wound. Therefore, this device will not free-up the physician's hand.

Accordingly, it is desirable to have a tissue approximation device that is capable of maintaining approximation of a wound without substantial eversion of the edge surfaces of the wound during application and curing of a topical skin closure adhesive on a wound, without requiring the physician or health care attendant to manually secure the device.

SUMMARY

Described herein is a tissue approximation device that is capable of maintaining approximation of a wound without substantial eversion of the edge surfaces of the wound during application of a topical skin adhesive, an adhesive film or skin staples to close a wound, without requiring the physician or health care attendant to manually secure the approximation device. In particular, described herein is a tissue approximation device comprising two elongate arms, an attachment means to secure the two elongate arms to each other, adhesive pads to anchor the tissue approximation device to the skin, and a locking means to lock the two elongate arms in place relative to each other.

In one embodiment, the elongate arms may each have a handle and a tong, such as in a pair of parallel forceps. An adhesive pad is on the distal end of each of the tongs, which may be located on the distal ends of the elongate arms of the parallel forceps. Further, the attachment means may be a pair of slidable bosses, while the locking means may be a ratchet mechanism on the forceps.

In another embodiment, an adhesive pad is on the distal end of each of the tongs, which are located on the distal ends of a pair of forceps. Further, the attachment means may be a yoke on the forceps, while the locking means may be a ratchet mechanism on the forceps.

The adhesive pads in either of these embodiments may be of several forms. For example, the adhesive pad may be fixedly attached to the distal end of each of the tongs. The adhesive pad may have a first adhering surface and a second surface having a socket mechanism that communicates with a ball on the distal end of each of the tongs, and the adhesive pad is optionally rotatable around the ball. Alternatively, the second surface of the adhesive pad may have a ball and the distal end of each of the tongs may have a socket mechanism. Alternatively, the adhesive pads may have a first adhering surface and a second surface having female receiving mechanism that communicates with a male protrusion on the distal end of each of the tongs; or the adhesive pad may have a first adhering surface and a second surface having a male protruding mechanism that communicates with a female receiving mechanism on the distal end of each of the tongs.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is representative of one embodiment of the present invention, where the adhesive pad is on the distal end of each of the tongs, which are located on the distal ends of a pair of parallel forceps.

FIG. 2 is an exploded view of an attachment means and the adhesive pads on the embodiment shown in FIG. 1.

FIG. 3 is a section view through FIG. 1 illustrating a locking means shown in the embodiment of FIG. 1.

FIG. 4 is a partial section view of the distal end of the tong and the adhesive pads.

FIG. 5 depicts an embodiment of the adhesive pad.

FIG. 6 is representative of a forceps embodiment of the approximation device, where the adhesive pad is on the distal end of each of the tongs.

FIGS. 7 and 8 depict various embodiments of the adhesive pads.

FIG. 9 is an exploded view of the adhesive pad.

FIG. 10 depicts an embodiment of the adhesive pad.

FIG. 11 depicts how the tissue approximation device would be utilized.

FIG. 12 depicts another embodiment of the adhesive pads.

DETAILED DESCRIPTION

The tissue approximation device of the present invention approximates a wound without substantially everting the edge surfaces of the wound during application of a topical skin adhesive, an adhesive film or skin staples to close a wound.

The tissue approximation device may be made of any shape to accommodate the adhesive pad described below. In general, the device may have a pair of elongate arms that are interconnected and substantially similar to each other, each may have a handle and a tong, the tong portion being located on the distal end of the elongate arm. The attachment means of the tissue approximation device hold the pair of elongate arms in a position relative to each other. As an example, the tissue approximation device may be either the parallel forceps as shown in FIG. 1 or the forceps as shown in FIG. 6. Such forceps may be constructed of any material including metal or plastic compositions.

As discussed above, the tissue approximation device may be a pair of forceps where the tongs accommodate the adhesive pad. The adhesive pad may be pre-assembled, or may be fixedly attached to or detachable from the distal end of each of the tongs. The adhesive pads may have a first adhering surface and a second surface having a socket mechanism that communicates with a ball on the distal end of each of the tongs, and the adhesive pad is optionally rotatable around the ball (FIG. 12); or the second surface of the adhesive pad may have a ball that communicates with a socket assembly on the distal end of each of the tongs as shown in FIGS. 7 and 8. Alternatively, the adhesive pad may have a first adhering surface and a second surface having a female receiving mechanism that communicates with a male protrusion on the distal end of each of the tongs; or the adhesive pad may have a first adhering surface and a second surface having a male protruding mechanism that communicates with a female receiving mechanism on the distal end of each of the tongs. The adhesive pads may be made to have a surface having a ball/socket mechanism or a female/male mechanisms by injection molding, stamping and rolling, or by a combination of extrusion and rolling or other suitable means. For example, a part having a first flat surface and a second surface having the ball or socket mechanism or the female or male mechanism may be made by injection molding plastic; followed by coating the first flat surface of the part with an adhesive material to form the adhesive pad. Alternatively, the adhesive pad may have a first adhering surface and a passageway therein such that a longitudinal edge of the distal end or the distal end itself of each of the tongs communicates with said passageway as shown in FIGS. 1 and 9. The adhesive pads may be made to have such a passageway by injection molding or extruding plastic into a part having a first surface, a second surface and the passageway; followed by coating the first surface of the part with an adhesive material to form the adhesive pad. If the approximation device is intended to be used during application of a topical skin adhesive, the adhesive pads may be made from any material that has relatively low bondability to the skin adhesive, including but not limited to polyolefins.

The adhesive pads are specifically designed such that the adhering surface has high shear resistance to hold the skin tissue adjacent to the approximating wound and low peel resistance for easy removal from the skin tissue after the topical wound adhesive has cured. The adhesive surface may be formed from one or more adhesive materials selected from the group consisting of polymeric acrylics, polyisobutylene, polyurethane, polymeric silicone and copolymers of these materials. The thickness of the adhesive may be about 0.0015 to about 0.005 inches and may be applied directly to the adhesive pad or to both sides of a polyethylene foam substrate having a total thickness of between about 0.025 inches and 0.075 inches, which in turn is attached to the adhesive pad. The preferred adhesive has a peel strength between about 50 and 150 oz/in when tested according to PSTC Method #1 Mod./180°.

Additionally, the tissue approximation device has locking means to lock the two elongate arms described above in a fixed position relative to each other. For example, the locking means may be a ratchet mechanism having a ratchet catch and a ratchet arm with a plurality of ratchet teeth, as shown in FIG. 3. Alternatively, the ratchet catch may be an indentation or cutout on the handle of one elongate arm that fits into ratchet teeth of a ratchet arm attached to the handle of the other elongate arm. Alternatively, ratchet teeth of a ratchet arm attached to the handle of one of the elongate arms may catch the edge of the handle of the other elongate arm, thereby locking the elongate arms in a fixed position relative to each other.

In the embodiment shown in FIG. 1, the tissue approximation device is shown and designated generally by the numeral 200. The approximation device 200 has a rigid elongate arm 212, which is interconnected with and substantially similar to a rigid elongate arm 214. Elongate arms 212 and 214 may be of one-piece construction and each may have a handle 212 a and 214 a and tong 212 b and 214 b. Tongs 212 b and 214 b may removeably hold adhesive pads 230 and 240.

Referring to FIG. 4 the adhesive pads 230 and 240 may be pre-assembled, or may be fixedly attached to or removable from the distal end of each of the tongs. Tongs 212 b and 214 b may contain a cylindrical shape 235 and taper portion 236 for receiving and removeably holding adhesive pads 230 and 240. The tongs and adhesive pads interface may be designed to allow the adhesive pads to pivot about the cylindrical shape thus allowing the adhesive pads to conform to various anatomical structures such as a wrist or back. In this embodiment when positioning adhesive pads 230, 240 onto handles 212 a, 214 a (which are shown in FIG. 1), applying an axial force to adhesive pads 230, 240 towards handles 212 a and 214 a creates a slight interference fit between the taper 236 outside diameter and inside diameter (through hole 231) of the adhesive pads 230 and 240. This interference fit aids in the alignment of the adhesive pads 230 and 240 with the anatomical structure and prevent the adhesive pads from flopping around during wound application. As shown in FIGS. 4 and 5 adhesive pads 230 and 240 have a through hole 231 that match the cylindrical shape 235. At the proximal end of taper 236 there may be an adhesive pad stop 237, which limits the traverse motion of the adhesive pads during assembly and use. The adhesive pads 230 and 240 have a first adhering surface 232 and a second surface that may have a serrated feature 233 to increase flexibility of the adhesive pads to further conform to various anatomical structures. The adhesive pads 230 and 240 have a release paper 234 that would be stripped off from the adhesive pads to expose the pressure sensitive adhering surface 232.

Elongate arms 212 and 214 are on the same plane and movably connected to each other for example by bosses 215 and 219 as shown in FIG. 2. The outside diameter of boss 219 is slightly smaller than the inside diameter of boss 215 allowing elongate arms 212, 214 move in a parallel motion. Bosses 215 and 219 may engage in such a way to limit outward travel of elongate arms 212 and 214. For example, boss 219 contains at least one slot 246 that allows at least one ratchet tooth 247 to flex inward upon assembly with boss 215. Boss 215 may contain a receiving slot 248 that connectively receives single ratchet tooth 247 of boss 219. For example, the bosses in this embodiment may be both the attachment means and the locking means.

Ratcheting mechanism 224 shown in FIG. 3 may comprise a flexible ratchet arm 226 pivotally connected at yoke 216 and mounted on first elongate arm 212. Yoke 216 may be made of a stainless steel threaded fastener or pin. Ratcheting mechanism 224 may secondly comprise a ratchet catch 228 rigidly mounted on 30 second elongate arm 214, with ratchet arm 226 and ratchet catch 228 in engaging relationship. More particularly, ratchet arm 226 and ratchet catch 228 engage each other so as to prevent elongate arms 212 and 214 from separating until such time as an operator depresses the ratchet release lever 225 in order to lift ratchet arm 226 away from ratchet catch 228. Ratcheting mechanism 224 prevents first and second tongs 212 b, 214 b from inadvertently separating from each other. ratchet arm 226 comprises a plurality of individual ratchet teeth against which ratchet catch 228 engage. As is well known, successive ratchet teeth are separated from each other by a substantially fixed linear distance and ratchet catch 228 can only engage ratchet arm 226 at a number of positions roughly equal to the number of individual ratchet teeth. Ratchet arm 226 may contain an integrally connected leaf spring 227 that applies a load in the counterclockwise direction and whose motion is limited by ratchet catch 228. The load applied by leaf spring 227 in this direction enables the ratchet arm 226 to continuously engage the ratchet catch 228. Ratchet mechanism 224 is designed such that when the ratchet catch 228 is engaged with the first ratchet tooth of ratchet arm 226, the tissue approximation is defined herein as being in a closed position, and tongs 212 b and 214 b remain parallel to each other and are non-contiguous such that the distance between the distal end of tongs 212 b and 214 b allows access to the wound for application of a permanent wound closure means.

As shown in FIG. 1, handles 212 a and 214 a are moved toward each other by compressing compression springs 223 which have a spring rate adequate enough to overcome frictional forces between bosses 215, 219 and secure ratchet arm 226 and ratchet catch 228 in engaging relationship. Compression springs 223 may be located on the outside or inside of bosses 215, 219.

In the embodiment shown in FIG. 6, the tissue approximation device is shown and designated generally by the numeral 100. The approximation forceps 100 have a flexible elongate arm 112, which is interconnected with and substantially similar to a flexible elongate arm 114. Elongate arms 112 and 114 each has a handle 112 a and 114 a and tong 112 b and 114 b and may be pivotally connected at attachment means, yoke 116. First and second elongate arms 112, 114 are pivoted in a scissors fashion. Handles 112 a and 114 a lie on the same plane and have at a proximal end thereof finger grips 118 and 120.

The tongs and adhesive pads interface may be designed to pivot multi directionally by means of a ball and socket mechanism shown in FIGS. 7 and 8 thus allowing the adhesive pads to conform to various anatomical structures such as a wrist or back. In addition this embodiment provides a means of rotating the adhesive pads with ball and socket 139, 141 to cooperate with yoke 116 allowing adhesive pads 130 and 140 to remain parallel to each other during wound approximation. The multi-directional pivoting motion can be limited by changing the distance from the center point of the ball 131 to surface 133 of adhesive pads 140 or 130 so rotation of the adhesive pads are more parallel to tongs 112 b and 114 b still allowing adhesive pads 130 and 140 to remain parallel to each other during wound approximation. The ball and socket 139, 141 design includes a slight interference fit allowing the alignment of adhesive pads 130 and 140 with the target anatomical structure and preventing the adhesive pads from flopping around during alignment and application. Preferably, adhesive pads 130, 140 remain parallel to each other and are non-contiguous such that the distance between the adhesive pads 130, 140 allows access to the wound for application of a permanent wound closure means.

As shown in FIGS. 7 and 8, tongs 112 b and 114 b include a recess 117, 119 that allows flex arm 121, 122 to deflect when ball 131, 141 of adhesive pad 130, 140 is installed into socket recess 138, 139. The adhesive pads 130 and 140 have a first adhering surface 132 and a second surface having a release paper 144 that would be stripped off from the adhesive pads to expose the pressure sensitive adhering surface 132. When adhesive pad 140 or 130 the ball 131 are offset from the centerline of surface 133 as shown in FIG. 8, clearance between the tongs is increased and tissue eversion may be controlled during approximation. Alternatively, as shown in FIG. 12, the ball 141 can be disposed on the distal end of flex arm 122, and recess 117 forming the socket recess (not shown) can be disposed on the second surface of the adhesive pads 140.

As shown in FIG. 6, immediately distal of finger grips 118, 120 is a ratcheting mechanism 124. Ratcheting mechanism 124 comprises a ratchet arm 126 mounted on first elongate arm 112 and a ratchet catch 128 mounted on second elongate arm 114, with ratchet arm 126 and ratchet catch 128 in engaging Relationship. More particularly, ratchet arm 126 and ratchet catch 128 engage each other so as to prevent finger grips 118, 120 from separating until such time as an operator applies a twisting movement in order to lift ratchet catch 128 away from ratchet arm 126. Ratcheting mechanism 124 prevents first and second tongs 112 b, 114 b from inadvertently separating from each other. Ratchet arm 126 comprises a plurality of individual ratchet teeth against which ratchet catch 128 engage. As is well known, successive ratchet teeth are separated from each other by a substantially fixed linear distance and ratchet catch 128 can only engage ratchet arm 126 at a number of positions roughly equal to the number of individual ratchet teeth. Ratchet mechanism 124 is designed such that when the first ratchet catch is engaged with ratchet arm 126, the tissue approximation is defined herein as being in a closed position and the distance between the distal end of tongs 112 b and 114 b allows access to the wound for application of a permanent wound closure means.

The tissue approximation device described in FIG. 6 may be made by injection molding plastic and utilizing a yoke pin of metal that is adequately secured by threads, rivet or bonding. The forceps may also be made of stainless steel, in which case the pivot is fixedly inserted into first arm 112 and through which second arm 114 passing in a manner well known in the art of forceps making.

Referring now to FIG. 9, the tissue approximation device shown and designated generally by the numeral 10 is similar to the device shown and depicted in FIG. 6, except that tongs 12 b and 14 b have a taper for receiving and removeably holding adhesive pads 30 and 40. Specifically, adhesive pads 30 and 40 have a tapered hole 31 and 41 that match the taper of tongs 12 b and 14 b. In this embodiment applying an axial force to adhesive pads 30 and 40 toward handles 12 a and 14 a creates an interference fit between the tongs 12 b, 14 b outside diameter and inside diameter of the adhesive pads 30 and 40 to aid in the alignment of the adhesive pads 30 and 40 with the anatomical structure and to prevent the adhesive pads from flopping around during wound application. In FIG. 10, adhesive pads 30 and 40 have a first adhering surface 32 and a second surface having a serrated feature 33 to increase flexibility of the adhesive pads to further conform to various anatomical structures. The adhesive pads 30 and 40 have a release paper 34 that would be stripped off from the adhesive pads to expose the pressure sensitive adhering surface 32.

As an example, the tissue approximation device may be used in the following manner as depicted in FIG. 11. The release paper would be stripped off from the pressure sensitive adhesive pads 130, 140 to expose the adhering surface having the pressure sensitive adhesive. The adhesive pads 130, 140 may be either pre-assembled on the tongs 112 b, 114 b of the forceps 100 or attached to the tongs after the adhesive pads 130, 140 are positioned onto the skin tissue 4 on the opposed sides of a wound 5, i.e., straddling the wound. A light pressure would then be used to secure the adhesive pads 130, 140 to the skin tissue 4. The physician would then approximate the wound 5 by actuating the forceps 100 in a direction to move the adhesive pads 130, 140 towards each other in a common plane that is generally parallel to the skin tissue 4, and engaging the ratchet mechanism 124 to assure that the edges surfaces of the wound 5 do not move while the wound closure means is applied to the wound 5. Specifically, when the forceps 100 is in an actuated mode, the adhesive pads 130, 140 align to form a gap 8 between the adhesive pads 130, 140 to allow for the application of the wound closure means to the wound 5. With the tissue approximation device of the present invention, a wound may be approximated without substantially everting the edge surfaces of the wound, during application of the wound closure means. After the wound closure means has been applied, the tongs 112 b, 114 b may be removed from the adhesive pads 130, 140, if detachable, followed by removal of the adhesive pads 130, 140 from the skin tissue 4. Alternatively, adhesive pads 130, 140 may be removed from skin tissue 4 while still attached to tongs 122 b, 114 b. Adhesive pads 130, 140 are specifically designed to have high shear resistance to hold maintain approximation of the wound 5, but low peel resistance for easy removal from the skin tissue 4 once the wound closure means has been applied.

While the present invention has been described and illustrated by reference to particular forms, those of ordinary skill in the art will appreciate that the invention lends itself to variations not necessarily illustrated herein. For this reason, then, reference should be made solely to the appended claims for purposes of determining the true scope of the present invention. 

We claim:
 1. A tissue approximation device comprising two elongate arms, an attachment means to secure the elongate arms to each other at one or more locations, adhesive pads movably connected on the ends of the elongate arms to anchor the tissue approximation device to the skin, and a locking means to lock the elongate arms in place relative to each other, wherein (i) the adhesive pads are spaced apart from the one or more locations of the attachment means in the direction of the elongate arms, and (ii) the tissue approximation device has an open and a closed position, and when in the closed position, the adhesive pads are parallel and non-contiguous to each other, where the adhesive pad has a first adhering surface and a second surface rotatably coupled to the distal end of each of the elongate arms by a ball and socket connector, wherein the second surface has one of a socket and a ball that communicates with the other one of a ball and a socket on the distal end of each of the elongate arms, and the adhesive pad is rotatable around the ball about at least two axes, wherein the elongate arms form parallel forceps, the attachment means is a pair of slidable bosses, and the locking means is a ratchet mechanism on the forceps.
 2. The tissue approximation device of claim 1, where the distance between the elongate arms is adjustable by means of a ratchet mechanism.
 3. A tissue approximation device comprising two elongate arms, an attachment means to secure the elongate arms to each other at one or more locations, adhesive pads movably connected on the ends of the elongate arms to anchor the tissue approximation device to the skin, and a locking means to lock the elongate arms in place relative to each other, wherein (i) the adhesive pads are spaced apart from the one or more locations of the attachment means in the direction of the elongate arms, and (ii) the tissue approximation device has an open and a closed position, and when in the closed position, the adhesive pads are parallel and non-contiguous to each other, where the adhesive pad has a first adhering surface having a center line and a connector formed of one of a male protruding mechanism and a female receiving mechanism, wherein the connector is formed on an edge of the adhesive pad offset from the center line and slidingly engages the other of a male protruding mechanism and a female receiving mechanism disposed on the distal end of each of the elongate arms, wherein each adhesive pad is rotatable about the distal end of the elongate arm to which it is connected.
 4. The tissue approximation device of claim 3, where the elongate arms form a pair of forceps, the attachment means is a yoke on the forceps, and the locking means is a ratchet mechanism on the forceps.
 5. The tissue approximation device of claim 4, where the distance between the elongate arms is adjustable by means of the ratchet mechanism.
 6. The tissue approximation device of claim 3, wherein the connector of the adhesive pad is a male protruding mechanism formed as a rod and the distal end of the elongate arm is a female receiving mechanism formed as a sleeve.
 7. The tissue approximation device of claim 3, wherein the connector of the adhesive pad is a female receiving mechanism formed as a sleeve and the distal end of the elongate arm is a male protruding mechanism formed as a rod.
 8. A tissue approximation device for application to a skin surface adjacent to a wound, comprising: a pair of arms, each arm having a longitudinal axis and opposed ends, wherein one end includes a handle and the other end includes a tong with a connector; an attachment mechanism coupled to each arm that movably couples the arms to each other so that a distance between each tong is selectively variable; an adhesive pad removably coupled to the connector of each tong, wherein each adhesive pad has an adhesive surface that extends in a plane generally parallel to the longitudinal axis of the respective tong, the adhesive surface having a high shear resistance for holding the skin surface and a low peel resistance for removal from the skin surface, and wherein the connectors support the adhesive pads to be positionable in a common plane on opposed sides of the wound and conform to the skin surface adjacent to the wound; and a locking mechanism coupled to each arm to selectively lock the pair of arms in a fixed position relative to each other, wherein the connector is a pivotal connector that connects one edge of the adhesive pad to the tong to pivot about the longitudinal axis of the respective arm wherein the pivotal connector is one of a rod and a sleeve and the adhesive pad includes the other of the rod and the sleeve, wherein the rod and the sleeve are slidably coupled together in a press fit manner.
 9. The tissue approximation device of claim 8, wherein the arms are connected in a scissors configuration.
 10. The tissue approximation device of claim 8, wherein the adhesive pad includes serrations that provide flexibility to the adhesive surface.
 11. The tissue approximation device of claim 8, wherein the locking mechanism includes a ratchet.
 12. The tissue approximation device of claim 8, wherein the arms are made of a resilient material.
 13. A tissue approximation device for application to a skin surface adjacent to a wound, comprising: a pair of arms, each arm having a longitudinal axis and opposed ends, wherein one end includes a handle and the other end includes a tong with a connector; an attachment mechanism coupled to each arm that movably couples the arms to each other so that a distance between each tong is selectively variable; an adhesive pad removably coupled to the connector of each tong, wherein each adhesive pad has an adhesive surface that extends in a plane generally parallel to the longitudinal axis of the respective tong, the adhesive surface having a high shear resistance for holding the skin surface and a low peel resistance for removal from the skin surface, and wherein the connectors support the adhesive pads to be positionable in a common plane on opposed sides of the wound and conform to the skin surface adjacent to the wound; and a locking mechanism coupled to each arm to selectively lock the pair of arms in a fixed position relative to each other, wherein the connector is a rotatable connector that connects the adhesive pad to the tong to pivot at least about the longitudinal axis and an axis substantially perpendicular to the longitudinal axis and the rotatable connector is one of a ball and a socket and the adhesive pad includes the other of the ball and the socket, wherein the ball and socket are snap fit together in an interference fit.
 14. The tissue approximation device of claim 13, wherein the arms are connected in a parallel configuration.
 15. The tissue approximation device of claim 13, wherein the attachment mechanism includes at least one pair of slidable bosses coupled between the arms.
 16. The tissue approximation device of claim 13, further comprising a spring disposed between the arms to bias the arms with respect to each other.
 17. A method for closing a wound in the surface of a patient's skin, comprising the steps of (1) providing a tissue approximation device comprising two elongate arms, an attachment means to secure the elongate arms to each other at one or more locations, and a locking means to lock the elongate arms in place relative to each other, wherein providing the tissue approximation device includes connecting an adhesive pad to an end of each elongate arm and adjusting a position of each pad relative to the skin surface, wherein (i) the adhesive pads are spaced apart from the one or more locations of the attachment means in the direction of the elongate arms, and (ii) the tissue approximation device has an open and a closed position, and when in the closed position, the adhesive pads are parallel and non-contiguous to each other; (2) positioning the adhesive pads to skin on opposed sides of a wound; (3) approximating the wound by actuating the tissue approximation device in a direction to move the adhesive pads towards each other in a common plane that is generally parallel to the skin tissue; (4) engaging the locking means to assure that the edges of the wound do not move; (5) applying a topical skin closure adhesive to the wound; and (6) removing the adhesive pads from the skin surface.
 18. The method of claim 17, wherein the elongate arms of the tissue approximation device form parallel forceps, the attachment means including a pair of slidable bosses, and the locking means including a ratchet mechanism on the forceps.
 19. The method of claim 18, wherein the distance between the elongate arms of the tissue approximation device is adjustable by means of a ratchet mechanism.
 20. The method of claim 17, wherein the elongate arms of the tissue approximation device form a pair of forceps, the attachment means is a yoke on the forceps, and the locking means is a ratchet mechanism on the forceps.
 21. The method of claim 20, wherein the distance between the elongate arms of the tissue approximation device is adjustable by means of a ratchet mechanism.
 22. The method of claim 18, wherein the adhesive pad has a first adhering surface and a second surface having a socket mechanism that communicates with a ball on the distal end of each of the elongate arms, and the adhesive pad is optionally rotatable around the ball.
 23. The method of claim 20, wherein the adhesive pad has a first adhering surface and a second surface having a socket mechanism that communicates with a ball on the distal end of each of the elongate arms, and the adhesive pad is optionally rotatable around the ball.
 24. The method of claim 18, wherein the adhesive pad has a first adhering surface and a second surface having a ball that communicates with a socket mechanism on the distal end of each of the elongate arms.
 25. The method of claim 20, wherein the adhesive pad has a first adhering surface and a second surface having a ball that communicates with a socket mechanism on the distal end of each of the elongate arms.
 26. The method of claim 18, wherein the adhesive pad has a first adhering surface and a second surface having female receiving mechanism that communicates with a male protrusion on the distal end of each of the elongate arms.
 27. The method of claim 20, wherein the adhesive pad has a first adhering surface and a second surface having female receiving mechanism that communicates with a male protrusion on the distal end of each of the elongate arms.
 28. The method of claim 18, wherein the adhesive pad has a first adhering surface and a second surface having a male protruding mechanism that communicates with a female receiving mechanism on the distal end of each of the elongate arms.
 29. The method of claim 20, wherein the adhesive pad has a first adhering surface and a second surface having a male protruding mechanism that communicates with a female receiving mechanism on the distal end of each of the elongate arms.
 30. The method of claim 18, wherein the distal end of each of the elongate arms has a passageway therein such that the adhesive pad communicates with said passageway.
 31. The method of claim 20, where the distal end of each of the elongate arms has a passageway therein such that the adhesive pad communicates with said passageway.
 32. The method of claim 18, where the adhesive pad has a passageway therein such that the distal end of each of the elongate arms is within said passageway.
 33. The method of claim 20, where the adhesive pad has a passageway therein such that the distal end of each of the elongate arms is within said passageway.
 34. The method of claim 17, where the attachment means and the locking means are the same.
 35. The method of claim 34, where the adhesive pads are located on at least a portion of each of the elongate arms. 